Soot Precursor and PM Formation in Diffusion Flame Using Thermally Decomposed Aliphatic Diesel Fuel

Experimental work was performed to investigate formation of soot precursor and PM in diesel combustion process using a flow reactor and a laminar co-flow diffusion burner. Thermally decomposed aliphatic diesel fuel produced in the flow reactor was supplied directly to the burner as fuel. Measurement...

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Bibliographic Details
Published inNihon Kikai Gakkai rombunshuu. B hen Vol. 73; no. 725; pp. 328 - 334
Main Authors NOGE, Hirofumi, YOSHIHARA, Yuuichi, KIDOGUCHI, Yoshiyuki, MIWA, Kei
Format Journal Article
LanguageJapanese
Published The Japan Society of Mechanical Engineers 2007
Subjects
Combustion
Combustion Products
Diesel Fuel
PAHs
Soot Formation
Soot Precursor
Spectroscopic Measurement
Thermal Decomposition
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Summary:Experimental work was performed to investigate formation of soot precursor and PM in diesel combustion process using a flow reactor and a laminar co-flow diffusion burner. Thermally decomposed aliphatic diesel fuel produced in the flow reactor was supplied directly to the burner as fuel. Measurements were conducted in the flow reactor, in the flame, and the exhaust for light hydrocarbons, low molecular weight aromatics, PAHs, soot precursor, and PM. Results show that many PAHs ranging from two to five-member ring are already formed as well as light hydrocarbon such as C2H4, C2H2 and CH4 during pyrolysis in the flow reactor. Exhaust PM is subject to be formed when abundant C2H2, Benzene, PAHs are produced during high temperature thermal decomposition of aliphatic diesel fuel, and the structure of PM has long chain-like aggregation. Measured fluorescence spectrometry indicates 464 nm peak. This peak is caused by soot precursor, which is in the SOF extracted from PM.
ISSN:0387-5016
1884-8346
DOI:10.1299/kikaib.73.328